Normalized inverse characterization of sound absorbing rigid porous media

被引:0
|
作者
机构
[1] Zieliński, Tomasz G.
来源
Zieliński, Tomasz G. | 1600年 / Acoustical Society of America卷 / 137期
关键词
This paper presents a methodology for the inverse characterization of sound absorbing rigid porous media; based on standard measurements of the surface acoustic impedance of a porous sample. The model parameters need to be normalized to have a robust identification procedure which fits the model-predicted impedance curves with the measured ones. Such a normalization provides a substitute set of dimensionless (normalized) parameters unambiguously related to the original model parameters. Moreover; two scaling frequencies are introduced; however; they are not additional parameters and for different; yet reasonable; assumptions of their values; the identification procedure should eventually lead to the same solution. The proposed identification technique uses measured and computed impedance curves for a porous sample not only in the standard configuration; that is; set to the rigid termination piston in an impedance tube; but also with air gaps of known thicknesses between the sample and the piston. Therefore; all necessary analytical formulas for sound propagation in double-layered media are provided. The methodology is illustrated by one numerical test and by two examples based on the experimental measurements of the acoustic impedance and absorption of porous ceramic samples of different thicknesses and a sample of polyurethane foam. © 2015 Acoustical Society of America;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [1] Normalized inverse characterization of sound absorbing rigid porous media
    Zielinski, Tomasz G.
    JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 2015, 137 (06): : 3232 - 3243
  • [2] Benchmarks for microstructure-based modelling of sound absorbing rigid-frame porous media
    Zielinski, Tomasz G.
    Venegas, Rodolfo
    Perrot, Camille
    Cervenka, Milan
    Chevillotte, Fabien
    Attenborough, Keith
    JOURNAL OF SOUND AND VIBRATION, 2020, 483
  • [3] NUMERICAL SIMULATION OF FLOW THROUGH ABSORBING POROUS MEDIA PART 1: RIGID POROUS MEDIA
    Salokhe, Shivam
    Rahmati, Mohammad
    Masoodi, Ryan
    Entwhistle, Jane
    JOURNAL OF POROUS MEDIA, 2022, 25 (05) : 53 - 75
  • [4] NUMERICAL SIMULATION OF FLOW THROUGH ABSORBING POROUS MEDIA PART 1: RIGID POROUS MEDIA
    Salokhe S.
    Rahmati M.
    Masoodi R.
    Entwhistle J.
    Journal of Porous Media, 2022, 25 (05): : 53 - 75
  • [5] Ultrasonic characterization of porous absorbing materials: Inverse problem
    Fellah, Z. E. A.
    Mitri, F. G.
    Fellah, M.
    Ogam, E.
    Depollier, C.
    JOURNAL OF SOUND AND VIBRATION, 2007, 302 (4-5) : 746 - 759
  • [6] A methodology for a robust inverse identification of model parameters for porous sound absorbing materials
    Zielinski, T. G.
    PROCEEDINGS OF INTERNATIONAL CONFERENCE ON NOISE AND VIBRATION ENGINEERING (ISMA2014) AND INTERNATIONAL CONFERENCE ON UNCERTAINTY IN STRUCTURAL DYNAMICS (USD2014), 2014, : 63 - 76
  • [7] Prediction of sound absorption in rigid porous media with the lattice Boltzmann method
    da Silva, Andrey Ricardo
    Mareze, Paulo
    Brandao, Eric
    JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL, 2016, 49 (06)
  • [8] Improved inverse method for radiative characteristics of closed-cell absorbing porous media
    Randrianalisoa, Jaona
    Baillis, Dominique
    Pilon, Laurent
    JOURNAL OF THERMOPHYSICS AND HEAT TRANSFER, 2006, 20 (04) : 871 - 883
  • [9] CHARACTERIZATION OF PARAMETERS FOR LIQUID FLOW IN RIGID POROUS-MEDIA
    CORMAN, JC
    TREFETHE.L
    WALMET, GE
    MECHANICAL ENGINEERING, 1974, 96 (04) : 78 - 78
  • [10] INVERSE SCATTERING PROBLEMS IN ABSORBING MEDIA
    JAULENT, M
    JOURNAL OF MATHEMATICAL PHYSICS, 1976, 17 (07) : 1351 - 1360
12345